CN104503445B

CN104503445B - Electrical control cabinet functional test equipment

Info

Publication number: CN104503445B
Application number: CN201510000985.2A
Authority: CN
Inventors: 周超
Original assignee: Karl Mayer China Ltd
Current assignee: Karl Mayer China Ltd
Priority date: 2015-01-04
Filing date: 2015-01-04
Publication date: 2015-09-30
Anticipated expiration: 2035-01-04
Also published as: CN104503445A

Abstract

The present invention relates to electrical control technical field of measurement and test, especially a kind of electrical control cabinet functional test equipment, comprise power supply, controlling calculation device, laser broken yarn controller, repeater, multiport transponder and touch-screen, power supply comprises three-phase supply, the 230V direct supply obtained by three-phase supply transformation, and 24V direct supply, controlling calculation device, laser broken yarn controller, repeater, the power supply of multiport transponder and touch-screen is provided by 24V direct supply, controlling calculation device left end connects laser broken yarn controller, controlling calculation device right-hand member connects touch-screen, repeater is connected with multiport transponder.The Main Function of this equipment carries out energising to electric cabinet to check and pre-debugging, utilizes switch, the operation of various functions on the components and parts simulation machines such as pilot lamp, detects, get rid of some basic faults to the wiring of components and parts and quality.

Description

Electrical control cabinet functional test equipment

Technical field

The present invention relates to electrical control technical field of measurement and test, especially a kind of electrical control cabinet functional test equipment.

Background technology

Existing electric test has some exterior operator, and these exterior operator are bulky, complex circuit, and energising detects and gets up with debugging test and bothers very much, now provides a kind of proving installation of simulating electrical control cabinet function.

Summary of the invention

In order to overcome existing above-mentioned deficiency, the invention provides a kind of electrical control cabinet functional test equipment.

The technical solution adopted for the present invention to solve the technical problems is: a kind of electrical control cabinet functional test equipment, comprise power supply, controlling calculation device, laser broken yarn controller, repeater, multiport transponder and touch-screen, power supply comprises three-phase supply, the 230V direct supply obtained by three-phase supply transformation, and 24V direct supply, controlling calculation device, laser broken yarn controller, repeater, the power supply of multiport transponder and touch-screen is provided by 24V direct supply, controlling calculation device left end connects laser broken yarn controller, controlling calculation device right-hand member connects touch-screen, repeater is connected with multiport transponder.

According to another embodiment of the invention, comprise further on three-phase supply and connect primary transducer, primary transducer rear end connects mair motor and mair motor scrambler, and primary transducer rear end is parallel with warp beam frequency converter one successively, warp beam frequency converter two, warp beam frequency converter three and warp beam frequency converter four, warp beam frequency converter one, warp beam frequency converter two, warp beam frequency converter three and warp beam frequency converter four rear end are connected with warp beam and tractive motor one and warp beam and tractive motor one in turn, warp beam and tractive motor two and warp beam and tractive motor two, warp beam and tractive motor three and warp beam and tractive motor three and warp beam and tractive motor four and warp beam and tractive motor four, three-phase supply is also parallel with end comb frequency converter one, end comb frequency converter two, end comb frequency converter three and end comb frequency converter four, end comb frequency converter one, end comb frequency converter two, end comb frequency converter three and comb frequency converter four rear end, the end are connected to end comb motor one and end comb motor encoder one, end comb motor two and end comb motor encoder two, end comb motor three and the end, comb motor encoder three and end comb motor four and the end and comb motor encoder four, primary transducer, warp beam frequency converter one, warp beam frequency converter two, warp beam frequency converter three, warp beam frequency converter four, end comb frequency converter one, end comb frequency converter two, end comb frequency converter three and end comb frequency converter four parallel connection, be then connected to repeater and controlling calculation device.

According to another embodiment of the invention, series circuit three-phase supply being connected with relay two and contactor one and relay one and lathe bed burner on light is comprised further.

According to another embodiment of the invention, comprise further bottom controlling calculation device and be parallel with scram button and the anxious series circuit stopping safety relay coils successively, stop button, top button, slow button, the series circuit of front side light curtain button and light curtain safety relay one coil, the series circuit of rear side light curtain button and light curtain safety relay two coil, adjustable potentiometer, the series circuit of heater switch button and relay one coil, the series circuit of oil-pressure shut-off switch button and relay two coil, the coil of relay three, the circuit of series contactor one coil again after batching switching knob one and batching switching knob two parallel connection, PSJ safety switch button, the series circuit of switching cylinder button one and relay five coil, the series circuit of switching cylinder button two and relay six coil, the series circuit of switching cylinder button three and relay seven coil, the series circuit of switching cylinder button four and relay eight coil, the series circuit of switching cylinder button five and relay nine coil, the series circuit of switching cylinder button six and relay ten coil, the series circuit of air compressing shift knob and relay 11 coil.

According to another embodiment of the invention, comprise the series circuit being parallel with light curtain safety relay one normally opened contact and front side light curtain power light between controlling calculation device power end successively further, the series circuit of light curtain safety relay two normally opened contact and rear side light curtain power light, the series circuit of relay three normally opened contact and spindle brake power light, the series circuit of relay four and blowing alarm lamp, the series circuit of side cylinder operation pilot lamp in front of the parallel circuit of relay five normally opened contact and relay six and relay seven, the parallel circuit of relay eight normally opened contact and relay nine and relay ten follows the series circuit of rear side cylinder operation pilot lamp, the series circuit of relay 11 normally opened contact and air compressing pilot lamp.

According to another embodiment of the invention, comprise further on 230V direct supply and be parallel with front side daylight lamp and rear side daylight lamp.

According to another embodiment of the invention, the coil that laser broken yarn controller rear end is parallel with generating laser, laser pickoff and relay four is comprised further.

According to another embodiment of the invention, comprise relay two further and be connected voltage-phase phase sequence display instrument one and voltage-phase phase sequence display instrument two respectively with contactor one rear end.

The invention has the beneficial effects as follows, the Main Function of this equipment carries out energising to electric cabinet to check and pre-debugging, utilizes switch, the operation of various functions on the components and parts simulation machines such as pilot lamp, detects, get rid of some basic faults to the wiring of components and parts and quality.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is structural representation of the present invention.

A1. primary transducer in figure, A2. warp beam frequency converter one, A3. warp beam frequency converter two, A4. warp beam frequency converter three, A5. warp beam frequency converter, A01. end comb frequency converter one, A02. end comb frequency converter two, A03. end comb frequency converter three, A04. end comb frequency converter four, K1. suddenly safety relay is stopped, K2. light curtain safety relay one, K3. light curtain safety relay two, K4. relay one, K5. relay two, K6. relay three, K7. relay four, K8. contactor one, K9. relay five, K10. relay six, K11. relay seven, K12. relay eight, K13. relay nine, K14. relay ten, K15. relay 11, WKC. computer for controlling, BO. touch-screen, FBK. laser broken yarn controller, M1. mair motor, M2. warp beam and tractive motor one, M3. warp beam and tractive motor two, M4. warp beam and tractive motor three, M5. warp beam and tractive motor four, M01. end comb motor one, M02. end comb motor two, M03. end comb motor three, M04. end comb motor four, B1. mair motor scrambler, B2. warp beam and tractive motor encoder one, B3. warp beam and tractive motor encoder two, B4. warp beam and tractive motor encoder three, B5. warp beam and tractive motor encoder four, B01. end comb motor encoder one, B02. end comb motor encoder two, B03. end comb motor encoder three, B04. end comb motor encoder four, S1a. scram button, S1b. stop button, S1c. top button, S1d. slow button, S2. front side light curtain button, S3. rear side light curtain button, S4. heater switch button, S5. oil-pressure shut-off switch button, S6.PSJ safety switch button, S7. shift knob one is batched, S8. shift knob two is batched, S9. switching cylinder button one, S10. switching cylinder button two, S11. switching cylinder button three, S12. switching cylinder button four, S13. switching cylinder button five, S14. switching cylinder button six, S15. air compressing shift knob, R1. adjustable potentiometer, L2. front side light curtain power light, L3. rear side light curtain power light, L6. lathe bed burner on light, L7. spindle brake power light, L8. to dry alarm lamp, L9. front side daylight lamp, L10. rear side daylight lamp, L11. front side cylinder operation pilot lamp, RP. repeater, Hub. multiport transponder, N1. voltage-phase phase sequence display instrument one, N2. voltage-phase phase sequence display instrument two, T. generating laser, R. laser pickoff.

Embodiment

If Fig. 1 is structural representation of the present invention, a kind of electrical control cabinet functional test equipment, comprises power supply, controlling calculation device WKC, laser broken yarn controller FBK, repeater RP, multiport transponder Hub and touch-screen BO, power supply comprises three-phase supply, the 230V direct supply obtained by three-phase supply transformation, and 24V direct supply, controlling calculation device WKC, laser broken yarn controller FBK, repeater RP, the power supply of multiport transponder Hub and touch-screen BO is provided by 24V direct supply, controlling calculation device WKC left end connects laser broken yarn controller FBK, controlling calculation device WKC right-hand member connects touch-screen BO, repeater RP is connected with multiport transponder Hub, three-phase supply connects primary transducer A1, primary transducer A1 rear end connects mair motor M1 and mair motor scrambler B1, and primary transducer A1 rear end is parallel with warp beam frequency converter one A2 successively, warp beam frequency converter two A3, warp beam frequency converter three A4 and warp beam frequency converter four A5, warp beam frequency converter one A2, warp beam frequency converter two A3, warp beam frequency converter three A4 and warp beam frequency converter four A5 rear end are connected with warp beam and tractive motor one M2 and warp beam and tractive motor one B2 in turn, warp beam and tractive motor two M3 and warp beam and tractive motor two B3, warp beam and tractive motor three M4 and warp beam and tractive motor three B4 and warp beam and tractive motor four M5 and warp beam and tractive motor four B5, three-phase supply is also parallel with end comb frequency converter one A01, end comb frequency converter two A02, end comb frequency converter three A03 and end comb frequency converter four A04, end comb frequency converter one A01, end comb frequency converter two A02, end comb frequency converter three A03 and comb frequency converter four A04 rear end, the end are connected to end comb motor one M01 and end comb motor encoder one B01, end comb motor two M02 and end comb motor encoder two B02, end comb motor three M03 and end comb motor encoder three B03 and end comb motor four M04 and end comb motor encoder four B04, primary transducer A1, warp beam frequency converter one A2, warp beam frequency converter two A3, warp beam frequency converter three A4, warp beam frequency converter four A5, end comb frequency converter one A01, end comb frequency converter two A02, end comb frequency converter three A03 and end comb frequency converter four A04 is in parallel, then repeater RP and controlling calculation device WKC is connected to, three-phase supply is connected with the series circuit of relay two K5 and contactor one K8 and relay one K4 and lathe bed burner on light L6, bottom controlling calculation device WKC, is parallel with scram button S1a and the anxious series circuit stopping safety relay K1 coil successively, stop button S1b, top button S1c, slow button S1d, the series circuit of front side light curtain button S2 and light curtain safety relay one K2 coil, the series circuit of rear side light curtain button S3 and light curtain safety relay two K3 coil, adjustable potentiometer R1, the series circuit of heater switch button S4 and relay one K4 coil, the series circuit of oil-pressure shut-off switch button S5 and relay two K5 coil, the coil of relay three K6, batch switching knob one S7 and batch the circuit of series contactor one K8 coil again after switching knob two S8 parallel connection, PSJ safety switch button S6, the series circuit of switching cylinder button one S9 and relay five K9 coil, the series circuit of switching cylinder button two S10 and relay six K10 coil, the series circuit of switching cylinder button Three S's 11 and relay seven K11 coil, the series circuit of switching cylinder button four S12 and relay eight K12 coil, the series circuit of switching cylinder button five S13 and relay nine K13 coil, the series circuit of switching cylinder button six S14 and relay ten K14 coil, the series circuit of air compressing shift knob S15 and relay 11 coil K15, is parallel with the series circuit of light curtain safety relay one K2 normally opened contact and front side light curtain power light L2 successively between controlling calculation device WKC power end, the series circuit of light curtain safety relay two K3 normally opened contact and rear side light curtain power light L3, the series circuit of relay three K6 normally opened contact and spindle brake power light L7, the series circuit of relay four K7 and blowing alarm lamp L8, the series circuit of side cylinder operation pilot lamp L11 in front of the parallel circuit of relay five K9 normally opened contact and relay six K10 and relay seven K11, the parallel circuit of relay eight K12 normally opened contact and relay nine K13 and relay ten K14 follows the series circuit of rear side cylinder operation pilot lamp L12, the series circuit of relay 11 K15 normally opened contact and air compressing pilot lamp L15,230V direct supply is parallel with front side daylight lamp L9 and rear side daylight lamp L10, laser broken yarn controller FBK rear end is parallel with generating laser T, the coil of laser pickoff R and relay four K7, relay two K5 and contactor one K8 rear end are connected voltage-phase phase sequence display instrument one N1 and voltage-phase phase sequence display instrument two N2 respectively.

Test specification: connected by the drag chain of electric cabinet and proving installation, after checking each line, opening power, all pilot lamp all light.

(1) testing button function: S1a is scram button, and S1b is stop button, and S1c is top button, S1d is slow button, presses S1a, and machine is out of service, BO display device emergent stopping, S1b pressed by the operation machine that resets, and machine is out of service, BO display device runs and stops, reset and run machine, press S1c, machine runs fast, press S1d, machine slow running;

(2) test light curtain function: when machine runs, press S2, triggers light curtain relay K 2, L2 and L8 extinguishes, BO display front side light curtain fault.Button S3, triggers light curtain relay K 3, L3 and extinguishes, BO display rear side light curtain fault;

(3) test lathe bed heating and oil pump function: regulate R1, simulation machine runs at such a temperature, presses S4, relay K 4 dead electricity, and L6 extinguishes, and BO shows oil temperature fault, and press oil-pressure shut-off switch S5, Oil pump electrical machinery quits work, and BO shows oil pressure faults;

(4) curling motor is tested, and yarn tension function: when pressing S7, simulation high strung of the tension, curling motor quits work, button S8, and simulation tension force is excessively loose, and curling motor quits work, and BO shows yarn tension fault;

(5) test Jacquard safety switch function: press S6, simulation Jacquard switch disconnects, and BO shows PJS power supply trouble;

(6) tested cylinder function: press S9 respectively, S10, S11, S12, S13, S14 Simulated gas cylinder working, L11, L12 pilot lamp extinguishes, and BO shows cylinder trouble;

(7) test air compressor function: button S15, L15 extinguish, BO shows air compressor fault;

(8) testing of electric motors: run motor by BO, checks the rotating speed of motor and turns to.

More than illustrate just illustrative for the purpose of the present invention; and nonrestrictive, those of ordinary skill in the art understand, when not departing from the spirit and scope that claims limit; many amendments, change or equivalence can be made, but all will fall within the scope of protection of the present invention.

Claims

1. an electrical control cabinet functional test equipment, comprises power supply, controlling calculation device (WKC), laser broken yarn controller (FBK), repeater (RP), multiport transponder (Hub) and touch-screen (BO), described power supply comprises three-phase supply, the 230V direct supply obtained by three-phase supply transformation, and 24V direct supply, is characterized in that, described controlling calculation device (WKC), laser broken yarn controller (FBK), repeater (RP), the power supply of multiport transponder (Hub) and touch-screen (BO) is provided by 24V direct supply, described controlling calculation device (WKC) left end connects laser broken yarn controller (FBK), described controlling calculation device (WKC) right-hand member connects touch-screen (BO), described repeater (RP) is connected with multiport transponder (Hub), three-phase supply connects primary transducer (A1), described primary transducer (A1) rear end connects mair motor (M1) and mair motor scrambler (B1), and described primary transducer (A1) rear end is parallel with warp beam frequency converter one (A2) successively, warp beam frequency converter two (A3), warp beam frequency converter three (A4) and warp beam frequency converter four (A5), described warp beam frequency converter one (A2), warp beam frequency converter two (A3), warp beam frequency converter three (A4) and warp beam frequency converter four (A5) rear end are connected with warp beam and tractive motor one (M2) and warp beam and tractive motor one (B2) in turn, warp beam and tractive motor two (M3) and warp beam and tractive motor two (B3), warp beam and tractive motor three (M4) and warp beam and tractive motor three (B4) and warp beam and tractive motor four (M5) and warp beam and tractive motor four (B5), described three-phase supply is also parallel with end comb frequency converter one (A01), end comb frequency converter two (A02), end comb frequency converter three (A03) and end comb frequency converter four (A04), described end comb frequency converter one (A01), end comb frequency converter two (A02), end comb frequency converter three (A03) and comb frequency converter four (A04) rear end, the end are connected to end comb motor one (M01) and end comb motor encoder one (B01), end comb motor two (M02) and end comb motor encoder two (B02), end comb motor three (M03) and the end, comb motor encoder three (B03) and end comb motor four (M04) and the end and comb motor encoder four (B04), described primary transducer (A1), warp beam frequency converter one (A2), warp beam frequency converter two (A3), warp beam frequency converter three (A4), warp beam frequency converter four (A5), end comb frequency converter one (A01), end comb frequency converter two (A02), end comb frequency converter three (A03) and end comb frequency converter four (A04) parallel connection, be then connected to repeater (RP) and controlling calculation device (WKC).

2. electrical control cabinet functional test equipment according to claim 1, is characterized in that, described three-phase supply is connected with the series circuit of relay two (K5) and contactor one (K8) and relay one (K4) and lathe bed burner on light (L6).

3. electrical control cabinet functional test equipment according to claim 1, is characterized in that, described controlling calculation device (WKC) bottom is parallel with scram button (S1a) and the anxious series circuit stopping safety relay (K1) coil successively, stop button (S1b), top button (S1c), slow button (S1d), the series circuit of front side light curtain button (S2) and light curtain safety relay one (K2) coil, the series circuit of rear side light curtain button (S3) and light curtain safety relay two (K3) coil, adjustable potentiometer (R1), the series circuit of heater switch button (S4) and relay one (K4) coil, the series circuit of oil-pressure shut-off switch button (S5) and relay two (K5) coil, the coil of relay three (K6), the circuit of series contactor one (K8) coil again after batching switching knob one (S7) and batching switching knob two (S8) parallel connection, PSJ safety switch button (S6), the series circuit of switching cylinder button one (S9) and relay five (K9) coil, the series circuit of switching cylinder button two (S10) and relay six (K10) coil, the series circuit of switching cylinder button three (S11) and relay seven (K11) coil, the series circuit of switching cylinder button four (S12) and relay eight (K12) coil, the series circuit of switching cylinder button five (S13) and relay nine (K13) coil, the series circuit of switching cylinder button six (S14) and relay ten (K14) coil, the series circuit of air compressing shift knob (S15) and relay 11 coil (K15).

4. electrical control cabinet functional test equipment according to claim 1, it is characterized in that, the series circuit of light curtain safety relay one (K2) normally opened contact and front side light curtain power light (L2) is parallel with successively between described controlling calculation device (WKC) power end, the series circuit of light curtain safety relay two (K3) normally opened contact and rear side light curtain power light (L3), the series circuit of relay three (K6) normally opened contact and spindle brake power light (L7), the series circuit of relay four (K7) and blowing alarm lamp (L8), the series circuit of side cylinder operation pilot lamp (L11) in front of the parallel circuit of relay five (K9) normally opened contact and relay six (K10) and relay seven (K11), the parallel circuit of relay eight (K12) normally opened contact and relay nine (K13) and relay ten (K14) follows the series circuit of rear side cylinder operation pilot lamp (L12), the series circuit of relay 11 (K15) normally opened contact and air compressing pilot lamp (L15).

5. electrical control cabinet functional test equipment according to claim 1, is characterized in that, described 230V direct supply is parallel with front side daylight lamp (L9) and rear side daylight lamp (L10).

6. electrical control cabinet functional test equipment according to claim 1, is characterized in that, described laser broken yarn controller (FBK) rear end is parallel with the coil of generating laser (T), laser pickoff (R) and relay four (K7).

7. electrical control cabinet functional test equipment according to claim 3, is characterized in that, described relay two (K5) and contactor one (K8) rear end are connected voltage-phase phase sequence display instrument one (N1) and voltage-phase phase sequence display instrument two (N2) respectively.